EP2145483A2 - Décodeur à référence hypothétique pour codage vidéo à vue multiple - Google Patents

Décodeur à référence hypothétique pour codage vidéo à vue multiple

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Publication number
EP2145483A2
EP2145483A2 EP08742877A EP08742877A EP2145483A2 EP 2145483 A2 EP2145483 A2 EP 2145483A2 EP 08742877 A EP08742877 A EP 08742877A EP 08742877 A EP08742877 A EP 08742877A EP 2145483 A2 EP2145483 A2 EP 2145483A2
Authority
EP
European Patent Office
Prior art keywords
hypothetical reference
reference decoder
parameters
hrd
video coding
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP08742877A
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German (de)
English (en)
Other versions
EP2145483B1 (fr
Inventor
Jiancong Luo
Lihua Zhu
Peng Yin
Purvin Bibhas Pandit
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
InterDigital VC Holdings Inc
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Thomson Licensing SAS
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Publication date
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Publication of EP2145483A2 publication Critical patent/EP2145483A2/fr
Application granted granted Critical
Publication of EP2145483B1 publication Critical patent/EP2145483B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N19/00Methods or arrangements for coding, decoding, compressing or decompressing digital video signals
    • H04N19/60Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using transform coding
    • H04N19/61Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using transform coding in combination with predictive coding
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N13/00Stereoscopic video systems; Multi-view video systems; Details thereof
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N19/00Methods or arrangements for coding, decoding, compressing or decompressing digital video signals
    • H04N19/42Methods or arrangements for coding, decoding, compressing or decompressing digital video signals characterised by implementation details or hardware specially adapted for video compression or decompression, e.g. dedicated software implementation
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N19/00Methods or arrangements for coding, decoding, compressing or decompressing digital video signals
    • H04N19/50Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using predictive coding
    • H04N19/597Methods or arrangements for coding, decoding, compressing or decompressing digital video signals using predictive coding specially adapted for multi-view video sequence encoding
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N19/00Methods or arrangements for coding, decoding, compressing or decompressing digital video signals
    • H04N19/70Methods or arrangements for coding, decoding, compressing or decompressing digital video signals characterised by syntax aspects related to video coding, e.g. related to compression standards

Definitions

  • This application relates to a hypothetical reference decoder for Multiview Video Coding in compressed video systems.
  • a hypothetical reference decoder (HRD) is valuable in compressed video systems because it serves to validate an encoded bitstream for compliance to a standard.
  • HRD hypothetical reference decoder
  • MVC Multiview Video Coding
  • H.264/AVC standard has rules (also referred to as requirements, constraints, or operational specifications) defining an HRD.
  • the HRD conformance is a normative part of the H.264/MPEG-4 AVC standard. Any AVC bitstream has to be compliant to the HRD built according to the rules.
  • the bit-rate variations of compressed bitstream need to be smoothed using buffering mechanisms at the encoder and decoder.
  • the sizes of the physical buffers are finite, and hence the encoder constrains the bit-rate variations to fit within the buffer limitations.
  • Video coding standards do not mandate specific encoder or decoder buffering mechanisms, but they require encoders to control bit-rate fluctuations so that a hypothetical reference decoder (HRD) (or Virtual Buffer Verifier (VBV) ) of a given buffer size would decode the video bit stream without suffering from buffer overflow or underflow.
  • HRD is based on an idealized decoder model.
  • the purpose of a HRD is to place basic buffering constraints on the variations in bit-rate over time in a coded stream. These constraints in turn enable higher layers to multiplex the stream and cost-effective decoders to decode it in real-time.
  • H.264/AVC will be used as an example. However, the invention can be extended to other video coding models or standards.
  • the reference software achieves multi-view prediction by encoding each view with a single encoder and taking into consideration the cross-view references.
  • Each view is coded as a separate bitstream by the encoder in its original resolution and later all the bitstreams are combined to form a single bitstream.
  • a user can decode one or more views based on its application.
  • no HRD rules are defined for MVC.
  • MVC coded views in total.
  • the decoder can have the flexibility to decode any M (1 ⁇ M ⁇ N ) views simultaneously.
  • Each combination of M views denotes an interoperability point (lOP).
  • lOP interoperability point
  • the present invention proposes that MVC HRD defines HRD constraints for each lOP. The problem with this solution is there are so many combinations, up to (2 N -1). Even if a limitation is added for M, where M ⁇ 32 , the total number of combinations is still big.
  • the present invention describes methods to provide rules for a Hypothetical Reference Decoder for Multiview Video Coding where the rules are specified for each interoperable point.
  • Figure 1 shows HRD parameters of view combinations which are derived by the HRD parameters of single views.
  • Figure 2 shows a Multiview Video Coding encoder.
  • Figure 3 shows a Multiview Video Coding decoder.
  • Figure 4 shows Video Usability Information for MVC encoding process of category 1.
  • Figure 5 shows Video Usability Information for MVC decoding process of category 1.
  • Figure 6 shows Multiview nesting SEI encoding process of category 1.
  • Figure 7 shows Multiview nesting SEI decoding process of category 1.
  • Figure 8 shows Video Usability Information for MVC encoding process of category 2.
  • Figure 9 shows Video Usability Information for MVC decoding process of category 2.
  • Figure 10 shows Multiview nesting SEI encoding process of category 2 & 3.
  • Figure 11 shows Multiview nesting SEI decoding process of category 2 &
  • Figure 12 shows Video Usability Information for MVC encoding process of category 3.
  • Figure 13 shows Video Usability Information for MVC decoding process of category 3.
  • HRD related parameters are placed in sequence parameter set (SPS) and SEI messages.
  • SPS sequence parameter set
  • SPS contains the syntax structure VUI parameters, as illustrated in Table 1
  • syntax elements num_units_in_tick, time scale, fixed_frame_rate_flag and low_delay_hrd_flag and syntax structure HRD parameters are placed in the syntax structure VUI parameters, as shown in Table 2.
  • Syntax structure HRD_parameters contains syntax to specify the buffer size and bit rate, etc.
  • the buffer period SEI and picture timing SEI specified the initial coded picture buffer removal delay before decoding a picture and the parameters to derive the timing of each picture.
  • the HRD related parameters placed in the SPS in combine with the parameters placed in buffering period SEI and picture time SEI, a set of HRD constraints is defined for a H.264/MPEG-4 AVC bitstream.
  • the current AVC implementation only support one set of HRD parameters, which doesn't fit the multiple IOPs contained in the MVC bitstream.
  • the reference software achieves multi-view prediction by encoding each view with a single encoder and taking into consideration the cross-view references. Each view is coded as a separate bitstream by the encoder in its original resolution and later all the bitstreams are combined to form a single bitstream.
  • the user can decode one or more views based on its application.
  • the MVC encoder and decoder diagrams are shown in Fig. 2 and Fig. 3 respectively.
  • the described embodiments use the framework of H.264 / MPEG-4 AVC based implementation of MVC.
  • the similar idea can be applied to other video coding standards.
  • the feature of specifying particular parameters for one or more operating points can be applied to standards other than the H.264/MPEG-4 AVC standard.
  • MVC coded views in total.
  • the decoder can have the flexibility to decode any M (1 ⁇ M ⁇ N ) views simultaneously.
  • Each combination of M views denotes an interoperability point (lOP).
  • lOP interoperability point
  • the present invention proposes that a MVC HRD defines HRD constraints for each lOP. The problem with this solution is there are so many combinations, up to (2 N -1). Even if a limitation is added for M, where M ⁇ 32 , the total number of combinations is still big. An embodiment of this solution is presented below.
  • Table 3 is taken from the AVC standard, and relates to the AVC-HRD. The additions to the AVC standard Tables are shown using italic font.
  • a new SEI message, multiview nesting SEI 1 is introduced in table 4.
  • the flowchart of VUI encoding and decoding processes are shown in Fig. 4 and Fig. 5 respectively.
  • the flowchart of multiview nesting SEI encoding and decoding processes are shown in Fig. 6 and Fig. 7 respectively.
  • VUI parameters As can be seen, Table 3 shows that syntax of VUI parameter in the AVC standard has been modified by introducing an "if-then” statement that tests the variable "profile_idc". If “profile_idc” is equal to "MVC", then a loop if performed one or more times to test one or more points (that is, lOPs). If “profilejdc” is not equal to "MVC”, then "AVC” is presumed to be the relevant standard, and an “else” is executed to test one point for AVC compliance (using existing AVC-HRD rules). Lines 30-60 are executed if the "profilejdc" is MVC, otherwise, lines 63-88 are executed.
  • variable "num_view_combinations_minus1" (line 30) provides the number of IOPs in the loop.
  • a sub-loop for each IOP (lines 33-34) provides the viewjds associated with the IOP.
  • "num_views_minus1[i]” (line 32) provides the number of views associated with the /th lOP
  • "view_id[i][j]” (line 34) provides the viewjd of the/th view of the /th IOP.
  • Lines 35- 59 provide syntaxes for the ⁇ h IOP. There can be up to (2 N -1) IOPs for an MVC bitstream. This compares to a single checking point for an AVC bitstream.
  • a multiview nesting SEI message concerns an access unit.
  • a multiview nest SEI message contains one and only one SEI message, which is referred to as the nested SEI message.
  • the scope to which the nested SEI message applies is indicated by the syntaxes from lines 2-10. "num_view_combinations_minus1”, “num_views_minus1 [i]” and “view_id[i][j]” share the same semantics of those in the VUI parameters.
  • Buffering period SEI message and the Picture timing SEI message (which are part of AVC) can be implemented as a SEI message payload embedded in multiview nesting SEI message.
  • the syntax of Buffering period SEI and Picture timing SEI remain the same as in AVC.
  • the Buffering period SEI message and the Picture timing SEI messages for the AVC compatible view shall not be nested in the multiview nesting SEI. This allows for AVC compatibility.
  • num_view_combinations_minus1 plus 1 indicates the number of view combinations supported by the bitstream referring to the same seq_parameter_set_id in the SPS which contains this hrd_parameters().
  • num_views_minus1[ i ] indicates the number of views associated with the /th lOP.
  • view_id[ i ][j] indicates the view_id of the/th view of the /th lOP.
  • timing_info_present_flag[i] specifies the timing_info_present_flag value of the /th lOP.
  • num_units_in_tick[i] specifies the num_units_in_tick value of the /th lOP.
  • time_scale[i] specifies the time_scale value of the ⁇ h lOP.
  • fixed_frame_rate_flag[i] specifies the fixed_frame_rate_flag value of the /th lOP.
  • nal_hrd_parameters_present_flag[i] specifies the nal_hrd_parameters_present_flag value of the rth lOP.
  • vcl_hrd_parameters_present_flag[i] specifies the vcl_hrd_parameters_present_flag value of the ⁇ h lOP.
  • low_delay_hrd_flag[i] specifies the low_delay_hrd_flag value of the /th lOP.
  • pic_struct_present_flag[i] specifies the pic_struct_present_flag value of the rth lOP.
  • timing_info_present_flag num_units_in_tick, time_scale, nal_hrd_parameters_present_flag, vcl_hrd_parameters_present_flag, low_delay_hrd_flag and pic_struct_present_flag have the same semantics as in AVC.
  • all_view_combinations_in_au_flag 1 indicates that the nested SEI message applies to all the view combinations of the access unit.
  • all_view_combinations_in_au_flag 0 indicates that the applicable scope of the nested SEI message is signaled by the the syntax elements num_view_combinations_minus1 , num_views_minus1[i] and view_id[i][j].
  • num_view_combinations_minus1 plus 1 indicates the number of view combinations supported by the bitstream.
  • num_views_minus1[ i ] indicates the number of views associated with the ⁇ h lOP.
  • view_id[ i ][j] indicates the view_id of theyth view of the ⁇ h lOP.
  • MVC HRD for a set of IOPs, and derive other sets of IOPs from this set.
  • MVC HRD only defines HRD constraints for decoding each of the possible single views, and the HRD parameters for decoding more than one view is derived from the relevant single view parameters. This approach allows one to send fewer parameters than the first approach, but it adds more complexity for derivation.
  • An HRD is defined for each view.
  • the flowchart of VUI encoding and decoding processes are shown in Fig. 8 and Fig. 9 respectively.
  • the flowchart of multiview nesting SEI encoding and decoding processes are shown in Fig. 10 and Fig. 11 respectively.
  • VUI parameters shows that syntax of VUI parameter in the AVC standard has been modified by introducing an "if-then” statement that tests the variable "profilejdc". If “profile_idc” is equal to "MVC”, then a loop if performed one or more times to test one or more points. If “profilejdc” is not equal to "MVC”, then “AVC” is presumed to be the relevant standard, and an “else” is executed to test one point for AVC compliance (using existing AVC-HRD rules). Lines 30-58 are executed if the "profilejdc” is MVC, otherwise, lines 61-85 are executed. The variable “num_views_minus1" (line 30) provides the number of views in the loop.
  • view_id[i] (line 32) provides the view_id of the /th view.
  • a new SEI message, multiview nesting SEI is defined in Table 6.
  • a multiview nesting SEI message concerns an access unit.
  • a multiview nesting SEI message contains one and only one SEI message, which is referred to as the nested SEI message.
  • the scope to which the nested SEI message applies is indicated by the syntaxes from lines 2-7. "num_views_minus1" and “view_id[i]” share the same semantics of those in the VUI parameters.
  • Buffering period SEI message and the Picture timing SEI message can be as a SEI message payload embedded in multiview nesting SEI message.
  • the syntax of Buffering period SEI and Picture timing SEI remain the same as in AVC.
  • the Buffering period SEI message and the Picture timing SEI messages for the AVC compatible view shall not be nested in the multview nesting SEI.
  • the HRD parameters of each IOP are derived by the HRD parameters of the views associated with the IOP.
  • An example is given in figure 1.
  • num_views_minus1 indicates the total number of views in the bitstream.
  • view_id[ i ] indicates the view_id of the /th view.
  • timing_info_present_flag[i] specifies the timing_info_present_flag value of the /th view.
  • num_units_in_tick[i] specifies the num_units_in_tick value of the /th view.
  • time_scale[i] specifies the time_scale value of the /th lOP.
  • fixed_frame_rate_flag[i] specifies the fixed_frame_rate_flag value of the rth view.
  • nal_hrd_parameters_present_flag[i] specifies the nal_hrd_parameters_present_flag value of the /th view.
  • vcl_hrd_parameters_present_flag[i] specifies the vcl_hrd_parameters_present_flag value of the ⁇ h view.
  • low_delay_hrd_flag[i] specifies the low_delay_hrd_flag value of the /th view.
  • pic_struct_present_flag[i] specifies the pic_struct_present_flag value of the /th view.
  • timing_info_present_flag num_units_in_tick, time_scale, nal_hrd_parameters_present_flag, vcl_hrd_parameters_present_flag, low_delay_hrd_flag and pic_struct_present_flag have the same semantics as in AVC.
  • all_views_in_au_flag 1 indicates that the nested SEI message applies to all the views of the access unit.
  • all_views_in_au_flag 0 indicates that the applicable scope of the nested SEI message is signaled by the syntax elements num_views_minus1 and view_id[i].
  • num_views_minus1 plus 1 indicates the number of views supported by the bitstream.
  • view_id[ i ] indicates the view_id of the /th view.
  • the worst case may be defined as, for example, the case that requires the largest buffer size, longest delay, highest bitrate, most bits consumption of transmitting any M views, etc. So one can only define 1 set of HRD parameters for decoding each M views. That is, one defines a set of HRD parameters for the worst case single view, and a set of HRD parameters for the worst case 2-view combination, etc., up to a set of HRD parameters for the worst case N-1 - view combination, and a set of HRD parameters for the (worst case) N-view combination.
  • the flowchart of VUI encoding and decoding processes are shown in Fig. 12 and Fig. 13 respectively.
  • VUI parameters As can be seen, Table 7 shows that syntax of VUI parameter in the AVC standard has been modified by introducing an "if-then” statement that tests the variable "profile_idc". If “profile_idc” is equal to "MVC", then a loop if performed one or more times to test one or more points. If “profile_idc” is not equal to "MVC", then "AVC” is presumed to be the relevant standard, and an “else” is executed to test one point for AVC compliance (using existing AVC-HRD rules). Lines 30-57 are executed if the "profile_idc" is MVC, otherwise, lines 60-84 are executed. The variable “num_views_minus1" (line 30) provides the number of views in the bitstream. Lines 32-56 provide syntaxes for HRD related parameters associated with the highest HRD constraints of decoding any /views of the (num_views_minus1+1) views.
  • Buffering period SEI message and the Picture timing SEI message can be as a SEI message payload embedded in multiview nesting SEI message.
  • the syntax of the multiview nesting SEI message can share the one defined in Table 6.
  • the nesting Buffering period and Picture timing SEI message is associated with the highest HRD constraints of decoding any (num_views_minus1+1) views of total number of views sending in the bitstream.
  • the syntax of Buffering period SEI and Picture timing SEI remain the same as in AVC.
  • the Buffering period SEI message and the Picture timing SEI messages for the AVC compatible view shall not be nested in the multview nesting SEI.
  • timing_info_present_flag[i] specifies the timing_info_present_flag value for decoding / views.
  • num_units_in_tick[i] specifies the num_units_in_tick value for decoding i views.
  • time_scale[i] specifies the time_scale value for decoding i views.
  • fixed_frame_rate_flag[i] specifies the fixed_frame_rate_flag value for decoding i views.
  • nal_hrd_parameters_present_flag[i] specifies the nal_hrd_parameters_present_flag value for decoding i views.
  • vcl_hrd_parameters_present_flag[i] specifies the vcl_hrd_parameters_present_flag value for decoding i views.
  • low_delay_hrd_flag[i] specifies the low_delay_hrd_flag value for decoding i views.
  • pic_struct_present_flag[i] specifies the pic_struct_present_flag value for decoding i views.
  • timing_info_present_flag num_units_in_tick, time_scale
  • nal_hrd_parameters_present_flag vcl_hrd_parameters_present_flag
  • low_delay_hrd_flag pic_struct_present_flag
  • Figures 4 through 13 show various flow charts for writing or reading the particular syntax that is identified.
  • an HRD may be provided using the above features for other standards.
  • an HRD may be provided for MVC using variations of the embodiments described above. Such variations may include, for example, implementations that use other high-level syntax, use syntax that is not high level, provide HRD parameters for other lOPs. Accordingly, although implementations described herein may be described in the context of high-level syntax for H.264, implementing one of the three principal implementations described herein, such descriptions should in no way be taken as limiting the features and concepts to such implementations or contexts.
  • the implementations described herein may be implemented in, for example, a method or process, an apparatus, or a software program. Even if only discussed in the context of a single form of implementation (for example, discussed only as a method), the implementation or features discussed may also be implemented in other forms (for example, an apparatus or program).
  • An apparatus may be implemented in, for example, appropriate hardware, software, and firmware.
  • the methods may be implemented in, for example, an apparatus such as, for example, a computer or other processing device. Additionally, the methods may be implemented by instructions being performed by a processing device or other apparatus, and such instructions may be stored on a computer readable medium such as, for example, a CD, or other computer readable storage device, or an integrated circuit.
  • implementations may also produce a signal formatted to carry information that may be, for example, stored or transmitted.
  • the information may include, for example, instructions for performing a method, or data produced by one of the described implementations.
  • a signal may be formatted to carry as data the rules for writing or reading the syntax of a described embodiment, or to carry as data the actual syntax written by a described embodiment.
  • implementations may be implemented in either, or both, an encoder and a decoder.
  • implementations are contemplated by this invention.
  • additional implementations may be created by combining, deleting, modifying, or supplementing various features of the disclosed implementations.

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  • Engineering & Computer Science (AREA)
  • Multimedia (AREA)
  • Signal Processing (AREA)
  • Compression Or Coding Systems Of Tv Signals (AREA)
  • Testing, Inspecting, Measuring Of Stereoscopic Televisions And Televisions (AREA)

Abstract

L'invention concerne un procédé et un appareil pour définir un décodeur à référence hypothétique (HRD) pour un codage vidéo à vue multiple (MVC) qui définit des contraintes pour chaque point d'interopérabilité possible. Chaque combinaison de M vues dénote un point d'interopérabilité. Les principes de la présente invention permettent également à des contraintes d'être définies pour un ensemble de point interopérables et d'autres ensembles sont déduits à partir de l'ensemble défini. Le procédé permet également aux règles des points d'interopérabilité d'être déduites d'information dans la syntaxe du flux binaire.
EP08742877.7A 2007-04-17 2008-04-14 Décodeur à référence hypothétique pour codage vidéo à vue multiple Active EP2145483B1 (fr)

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PCT/US2008/004821 WO2008130528A2 (fr) 2007-04-17 2008-04-14 Décodeur à référence hypothétique pour codage vidéo à vue multiple

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US20100091882A1 (en) 2010-04-15
JP2010525662A (ja) 2010-07-22
JP2016167867A (ja) 2016-09-15
US8761265B2 (en) 2014-06-24
KR20140127881A (ko) 2014-11-04
CN101658040A (zh) 2010-02-24
JP6233984B2 (ja) 2017-11-22
BRPI0809585A2 (pt) 2014-09-23
JP5263901B2 (ja) 2013-08-14
JP5475855B2 (ja) 2014-04-16
KR101741050B1 (ko) 2017-05-29
WO2008130528A2 (fr) 2008-10-30
KR20150086557A (ko) 2015-07-28
EP2145483B1 (fr) 2020-10-21
KR101633576B1 (ko) 2016-06-27
JP2014112922A (ja) 2014-06-19
CN101658040B (zh) 2013-09-11
WO2008130528A3 (fr) 2009-08-20
JP2013070411A (ja) 2013-04-18
KR101615967B1 (ko) 2016-04-28
KR20100014574A (ko) 2010-02-10

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